A new calculation model, able to predict the engine performance during an engine transient, has been developed, based on an existing wave action code. Previously to the model development, the turbocharged diesel engine's transient phenomena (turbocharger lag, thermal transient and energy transport delay) were deeply analysed on the basis of experimental information. The study has been focused on the load transient, i.e. torque increase from idle, at constant engine speed of a high speed direct injection (DI) turbocharged engine. Experimental load transient tests have been performed, with the aim of obtaining a combustion database during engine transient operation, to input into a combustion simulation submodel. The applied methodology allows the characterization of the transient combustion process in any DI turbocharged engine.
ZelenkaP.AufingerH.WalterR.WolfgangC.Cooled EGR-a key technology for future efficient H.D. diesels. SAE paper 980190, 1998.
2.
DekkerH. J.SturmW. L.Simulation and control of a H.D. diesel engine equipped with a new EGR technology. SAE paper 960871, 1996.
3.
LüdersH.StommelP.Diesel exhaust treatment-new approaches to ultra low emission diesel vehicles. SAE paper 1999–01-0108, 1999.
4.
WalshM. P.Global trends in diesel emissions control-a 1999 update. SAE paper 1999–01-0107, 1999.
5.
WinterboneD. E.TennantD. W. H.The variation of friction and combustion rates during diesel engine transients. SAE paper 810339, 1981.
6.
AssanisD.FilipiZ.FivelandS.SyrimisM.A methodology for cycle-by-cycle transient heat release analysis in turbocharged direct injection diesel engine. SAE paper 2000–01-1185, 2000.
7.
SerranoJ. R.Analysis and modelling of the load transient in turbocharged diesel engines (in Spanish). PhD thesis, Universidad Politécnica de Valencia, 1999.
8.
RodriguezA.Comparative analysis and synthesis of the turbocharged direct injection diesel engines transient response (in Spanish). PhD thesis, Universidad Politécnica de Valencia, 2001.
9.
SantosR.A study on the available energy in the exhaust gases of diesel engines (in Spanish). PhD thesis, Universidad Politécnica de Valencia, 1999.
10.
WiebeI.Halbempirische Formel fur die Verbrennungs-Geschwindigkeit, 1956 (Academy of Sciences of the USSR, Moscow).
11.
ArmasO.Experimental diagnosis of the combustion process in direct injection diesel engines (in Spanish). PhD thesis, Universidad Politécnica de Valencia, 1998.
12.
PayriF.ArmasO.DesantesR.LeivaA.Thermodynamic model for the experimental diagnosis of the combustion process in D.I. diesel engines (in Spanish). In Proceedings of Third Congreso Iberoamericano deIngenierà Mecánica, La Habana, Cuba, 1997.
13.
LapuertaM.ArmasO.HernándezJ. J.Diagnostic of DI diesel combustion from in-cylinder pressure signal by estimation of mean thermodynamic properties of the gasAppl. Thermal Engng, 1999, 19, 513–529.
14.
LapuertaM.ArmasO.HernándezJ. J.Effect to the injection parameters of a common rail injection system on diesel combustion through thermodynamic diagnosis. SAE paper 1999–01-0194, 1999.
15.
LapuertaM.ArmasO.BermúdezV.Sensitivity of diesel engine thermodynamic cycle calculation to measurement errors and estimated parametersAppl. Thermal Engng, 2000, 20, 843–861.
16.
DesantesJ. M.ArregleJ.PastorJ. V.Influence of the fuel characteristics on the injection process in D.I. diesel engines. SAE paper 980802, 1998.
17.
HorlockJ. H.WinterboneD. E.The Thermodynamics and Gas Dynamics of Internal Combustion Engines, Vol. II, 1986 (Clarendon, Oxford).
18.
MurayamaT.MiyamotoN.TsudaT.SuzukiH.HasegawaS.Combustion behaviours under accelerating operation of an IDI diesel engine. SAE paper 800966, 1980.
19.
WatsonN.JanotaS.Turbocharging the Internal Combustion Engine, 1982 (Macmillan, London).
20.
WatsonN.Transient performance simulation and analysis of turbocharged diesel engines. SAE paper 810338, 1981.
21.
AssanisD.BakerD. M.BohacV.A global model for steady-state and transient SI engine heat transfer studies. SAE paper 960073, 1996.
22.
MiyamotoN.EnomotoY.KitamuraT. et al. Time-resolved nature of exhaust gas emissions and piston wall temperature under transient operation in a small diesel engine. SAE paper 960031, 1996.
23.
WoschniG.DollM.SpindlerW.Simulation des stationären und instationären Verhaltens von aufgeladenen Pkw-DieselmotorenMTZ Motortech. Z., 1991, 52 (9), 468–477.
24.
WinterboneD. E.BackhouseR.Dynamic behaviour of a turbocharged diesel engine. SAE paper 860453, 1986.
25.
BenajesJ.ReyesE.LujanJ. M.Modelling study of the scavenging process in a turbocharged diesel engine with modified valve operationProc. Instn Mech. Engrs, Part C, Journal of Mechanical Engineering Science, 1996, 210, 383–393.
26.
WoschniG. A.Universally applicable equation for instantaneous heat transfer coefficient in the internal combustion engine. SAE paper 670931, 1967.
